Paper Info
Title
Robust sequence memory in sparsely-connected networks with controllable steady-state period
Abstract
A novel sparsely-connected neural network for sequence memory with controllable steady-state period is proposed in this study. By introducing a new exponential kernel sampling function and the sampling interval parameter, the steady-state period can be controlled, and the steady-state time steps is equal to the sampling interval parameter. Ascribing to the exponential kernel sampling function, the sequence storage capacity is enlarged compared with the existing sequence memory models. Owning to the sparsely-connected of Gaussian distribution, the model produces the efficient use of synapse resources, but the sequence storage capacity is decreased compared with the fully-connected networks. The study also gives a significant result that the networks of different dimensions have the same synapse connection efficiency if they are with the same connection mean degree.
Year
DOI
Venue
2009
10.1016/j.neucom.2009.03.004
Neurocomputing
Keywords
Field
DocType
new exponential kernel,sampling interval parameter,steady-state period,sequence memory,robust sequence memory,controllable steady-state period,steady-state time step,sparsely-connected network,existing sequence memory model,connection mean degree,sequence storage capacity,exponential kernel,memory model,steady state,neural network,gaussian distribution
Kernel (linear algebra),Exponential function,Sampling interval,Gaussian,Artificial intelligence,Sampling (statistics),Steady state,Artificial neural network,Mathematics,Machine learning
Journal
Volume
Issue
ISSN
72
13-15
Neurocomputing
Citations 
PageRank 
References 
3
0.43
15
Authors
4
Name
Order
Citations
PageRank
Min Xia1150.92
Jian'an Fang2806.91
Feng Pan3151.60
Enjian Bai4657.71